---
title: RedisVectorStore
---

```{=mdx}
<Tip>
**Compatibility**

Only available on Node.js.
</Tip>
```

[Redis](https://redis.io/) is a fast open source, in-memory data store. As part of the [Redis Stack](https://redis.io/docs/latest/operate/oss_and_stack/install/install-stack/), [RediSearch](https://redis.io/docs/latest/develop/interact/search-and-query/) is the module that enables vector similarity semantic search, as well as many other types of searching.

This guide provides a quick overview for getting started with Redis [vector stores](/oss/concepts/#vectorstores). For detailed documentation of all `RedisVectorStore` features and configurations head to the [API reference](https://api.js.langchain.com/classes/langchain_redis.RedisVectorStore.html).

## Overview

### Integration details

| Class                                                                                            | Package                                                   | [PY support](https://python.langchain.com/docs/integrations/vectorstores/redis/) |                                           Version                                            |
| :----------------------------------------------------------------------------------------------- | :-------------------------------------------------------- | :------------------------------------------------------------------------------: | :------------------------------------------------------------------------------------------: |
| [`RedisVectorStore`](https://api.js.langchain.com/classes/langchain_redis.RedisVectorStore.html) | [`@langchain/redis`](https://npmjs.com/@langchain/redis/) |                                        ✅                                        | ![NPM - Version](https://img.shields.io/npm/v/@langchain/redis?style=flat-square&label=%20&) |

## Setup

To use Redis vector stores, you'll need to set up a Redis instance and install the `@langchain/redis` integration package. You can also install the [`node-redis`](https://github.com/redis/node-redis) package to initialize the vector store with a specific client instance.

This guide will also use [OpenAI embeddings](/oss/integrations/text_embedding/openai), which require you to install the `@langchain/openai` integration package. You can also use [other supported embeddings models](/oss/integrations/text_embedding) if you wish.

```{=mdx}
import IntegrationInstallTooltip from "@mdx_components/integration_install_tooltip.mdx";
<IntegrationInstallTooltip></IntegrationInstallTooltip>

<Npm2Yarn>
  @langchain/redis @langchain/core redis @langchain/openai
</Npm2Yarn>
```

You can set up a Redis instance locally with Docker by following [these instructions](https://redis.io/docs/latest/operate/oss_and_stack/install/install-stack/docker/#redisredis-stack).

### Credentials

Once you've set up an instance, set the `REDIS_URL` environment variable:

```typescript
process.env.REDIS_URL = "your-redis-url";
```

If you are using OpenAI embeddings for this guide, you'll need to set your OpenAI key as well:

```typescript
process.env.OPENAI_API_KEY = "YOUR_API_KEY";
```

If you want to get automated tracing of your model calls you can also set your [LangSmith](https://docs.smith.langchain.com/) API key by uncommenting below:

```typescript
// process.env.LANGSMITH_TRACING="true"
// process.env.LANGSMITH_API_KEY="your-api-key"
```

## Instantiation

```typescript
import { RedisVectorStore } from "@langchain/redis";
import { OpenAIEmbeddings } from "@langchain/openai";

import { createClient } from "redis";

const embeddings = new OpenAIEmbeddings({
  model: "text-embedding-3-small",
});

const client = createClient({
  url: process.env.REDIS_URL ?? "redis://localhost:6379",
});
await client.connect();

const vectorStore = new RedisVectorStore(embeddings, {
  redisClient: client,
  indexName: "langchainjs-testing",
});
```

## Manage vector store

### Add items to vector store

```typescript
import type { Document } from "@langchain/core/documents";

const document1: Document = {
  pageContent: "The powerhouse of the cell is the mitochondria",
  metadata: { type: "example" },
};

const document2: Document = {
  pageContent: "Buildings are made out of brick",
  metadata: { type: "example" },
};

const document3: Document = {
  pageContent: "Mitochondria are made out of lipids",
  metadata: { type: "example" },
};

const document4: Document = {
  pageContent: "The 2024 Olympics are in Paris",
  metadata: { type: "example" },
};

const documents = [document1, document2, document3, document4];

await vectorStore.addDocuments(documents);
```

Top-level document ids are currently not supported, but you can delete documents by providing their IDs directly to the vector store.

## Query vector store

Once your vector store has been created and the relevant documents have been added you will most likely wish to query it during the running of your chain or agent.

### Query directly

Performing a simple similarity search can be done as follows:

```typescript
const similaritySearchResults = await vectorStore.similaritySearch(
  "biology",
  2
);

for (const doc of similaritySearchResults) {
  console.log(`* ${doc.pageContent} [${JSON.stringify(doc.metadata, null)}]`);
}
```

Filtering will currently look for any metadata key containing the provided string.

If you want to execute a similarity search and receive the corresponding scores you can run:

```typescript
const similaritySearchWithScoreResults =
  await vectorStore.similaritySearchWithScore("biology", 2);

for (const [doc, score] of similaritySearchWithScoreResults) {
  console.log(
    `* [SIM=${score.toFixed(3)}] ${doc.pageContent} [${JSON.stringify(
      doc.metadata
    )}]`
  );
}
```

```output
* [SIM=0.835] The powerhouse of the cell is the mitochondria [{"type":"example"}]
* [SIM=0.852] Mitochondria are made out of lipids [{"type":"example"}]
```

### Query by turning into retriever

You can also transform the vector store into a [retriever](/oss/langchain/retrieval) for easier usage in your chains.

```typescript
const retriever = vectorStore.asRetriever({
  k: 2,
});
await retriever.invoke("biology");
```

```output
[
  Document {
    pageContent: 'The powerhouse of the cell is the mitochondria',
    metadata: { type: 'example' },
    id: undefined
  },
  Document {
    pageContent: 'Mitochondria are made out of lipids',
    metadata: { type: 'example' },
    id: undefined
  }
]
```

### Usage for retrieval-augmented generation

For guides on how to use this vector store for retrieval-augmented generation (RAG), see the following sections:

- [Build a RAG app with LangChain](/oss/langchain/rag).
- [Agentic RAG](/oss/langgraph/agentic-rag)
- [Retrieval docs](/oss/langchain/retrieval)

## Deleting documents

You can delete documents from the vector store in two ways:

### Delete all documents

You can delete an entire index and all its documents with the following command:

```typescript
await vectorStore.delete({ deleteAll: true });
```

### Delete specific documents by ID

You can also delete specific documents by providing their IDs. Note that the configured key prefix will be automatically added to the IDs you provide:

```typescript
// The key prefix will be automatically added to each ID
await vectorStore.delete({ ids: ["doc1", "doc2", "doc3"] });
```

## Closing connections

Make sure you close the client connection when you are finished to avoid excessive resource consumption:

```typescript
await client.disconnect();
```

## Advanced Features

### Custom Schema and Metadata Filtering

The Redis vector store supports custom schema definitions for metadata fields, enabling more efficient filtering and searching. This feature allows you to define specific field types and validation rules for your metadata.

#### Defining a Custom Schema

You can define a custom schema when creating your vector store to specify field types, validation rules, and indexing options:

```typescript
import { RedisVectorStore } from "@langchain/redis";
import { OpenAIEmbeddings } from "@langchain/openai";
import { SchemaFieldTypes } from "redis";
import { createClient } from "redis";

const embeddings = new OpenAIEmbeddings({
  model: "text-embedding-3-small",
});

const client = createClient({
  url: process.env.REDIS_URL ?? "redis://localhost:6379",
});
await client.connect();

// Define custom schema for metadata fields
const customSchema:RedisVectorStoreConfig["customSchema"] = {
  userId: {
    type: SchemaFieldTypes.TEXT,
    required: true,
    SORTABLE: true,
  },
  category: {
    type: SchemaFieldTypes.TAG,
    SORTABLE: true,
    SEPARATOR: ",",
  },
  score: {
    type: SchemaFieldTypes.NUMERIC,
    SORTABLE: true,
  },
  tags: {
    type: SchemaFieldTypes.TAG,
    SEPARATOR: ",",
    CASESENSITIVE: true,
  },
  description: {
    type: SchemaFieldTypes.TEXT,
    NOSTEM: true,
    WEIGHT: 2.0,
  },
};

const vectorStoreWithSchema = new RedisVectorStore(embeddings, {
  redisClient: client,
  indexName: "langchainjs-custom-schema",
  customSchema,
});
```

#### Schema Field Types

The custom schema supports three main field types:

- **TEXT**: Full-text searchable fields with optional stemming, weighting, and sorting
- **TAG**: Categorical fields for exact matching, with support for multiple values and custom separators
- **NUMERIC**: Numeric fields supporting range queries and sorting

#### Field Configuration Options

Each field can be configured with various options:

- `required`: Whether the field must be present in metadata (default: false)
- `SORTABLE`: Enable sorting on this field (default: undefined)
- `SEPARATOR`: For TAG fields, specify the separator for multiple values (default: ",")
- `CASESENSITIVE`: For TAG fields, enable case-sensitive matching (Redis expects `true`, not boolean)
- `NOSTEM`: For TEXT fields, disable stemming (Redis expects `true`, not boolean)
- `WEIGHT`: For TEXT fields, specify search weight (default: 1.0)

#### Adding Documents with Schema Validation

When using a custom schema, documents are automatically validated against the defined schema:

```typescript
import type { Document } from "@langchain/core/documents";

const documentsWithMetadata: Document[] = [
  {
    pageContent: "Advanced JavaScript techniques for modern web development",
    metadata: {
      userId: "user123",
      category: "programming",
      score: 95,
      tags: ["javascript", "web-development", "frontend"],
      description: "Comprehensive guide to JavaScript best practices",
    },
  },
  {
    pageContent: "Machine learning fundamentals and applications",
    metadata: {
      userId: "user456",
      category: "ai",
      score: 88,
      tags: ["machine-learning", "python", "data-science"],
      description: "Introduction to ML concepts and practical applications",
    },
  },
  {
    pageContent: "Database optimization strategies for high performance",
    metadata: {
      userId: "user789",
      category: "database",
      score: 92,
      tags: ["database", "optimization", "performance"],
      description: "Advanced techniques for database performance tuning",
    },
  },
];

// This will validate each document's metadata against the custom schema
await vectorStoreWithSchema.addDocuments(documentsWithMetadata);
```

#### Advanced Similarity Search with Metadata Filtering

The custom schema enables powerful metadata filtering capabilities using the `similaritySearchVectorWithScoreAndMetadata` method:

```typescript
// Search with TAG filtering
const tagFilterResults =
  await vectorStoreWithSchema.similaritySearchVectorWithScoreAndMetadata(
    await embeddings.embedQuery("programming tutorial"),
    3,
    {
      category: "programming", // Exact tag match
      tags: ["javascript", "frontend"], // Multiple tag OR search
    }
  );

console.log("Tag filter results:");
for (const [doc, score] of tagFilterResults) {
  console.log(`* [SIM=${score.toFixed(3)}] ${doc.pageContent}`);
  console.log(`  Metadata: ${JSON.stringify(doc.metadata)}`);
}
```

```typescript
// Search with NUMERIC range filtering
const numericFilterResults =
  await vectorStoreWithSchema.similaritySearchVectorWithScoreAndMetadata(
    await embeddings.embedQuery("high quality content"),
    5,
    {
      score: { min: 90, max: 100 }, // Score between 90 and 100
      category: ["programming", "ai"], // Multiple categories
    }
  );

console.log("Numeric filter results:");
for (const [doc, score] of numericFilterResults) {
  console.log(`* [SIM=${score.toFixed(3)}] ${doc.pageContent}`);
  console.log(
    `  Score: ${doc.metadata.score}, Category: ${doc.metadata.category}`
  );
}
```

```typescript
// Search with TEXT field filtering
const textFilterResults =
  await vectorStoreWithSchema.similaritySearchVectorWithScoreAndMetadata(
    await embeddings.embedQuery("development guide"),
    3,
    {
      description: "comprehensive guide", // Text search in description field
      score: { min: 85 }, // Minimum score of 85
    }
  );

console.log("Text filter results:");
for (const [doc, score] of textFilterResults) {
  console.log(`* [SIM=${score.toFixed(3)}] ${doc.pageContent}`);
  console.log(`  Description: ${doc.metadata.description}`);
}
```

#### Numeric Range Query Options

For numeric fields, you can specify various range queries:

```typescript
// Exact value match
{ score: 95 }

// Range with both min and max
{ score: { min: 80, max: 100 } }

// Only minimum value
{ score: { min: 90 } }

// Only maximum value
{ score: { max: 95 } }
```

#### Error Handling and Validation

The custom schema provides automatic validation with helpful error messages:

```typescript
try {
  // This will fail validation - missing required userId field
  const invalidDoc: Document = {
    pageContent: "Some content without required metadata",
    metadata: {
      category: "test",
      // Missing required userId field
    },
  };

  await vectorStoreWithSchema.addDocuments([invalidDoc]);
} catch (error) {
  console.log("Validation error:", error.message);
  // Output: "Required metadata field 'userId' is missing"
}

try {
  // This will fail validation - wrong type for score field
  const wrongTypeDoc: Document = {
    pageContent: "Content with wrong metadata type",
    metadata: {
      userId: "user123",
      score: "not-a-number", // Should be number, not string
    },
  };

  await vectorStoreWithSchema.addDocuments([wrongTypeDoc]);
} catch (error) {
  console.log("Type validation error:", error.message);
  // Output: "Metadata field 'score' must be a number, got string"
}
```

#### Performance Benefits

Using custom schema provides several performance advantages:

1. **Indexed Metadata Fields**: Individual metadata fields are indexed separately, enabling fast filtering
2. **Type-Optimized Queries**: Numeric and tag fields use optimized query structures
3. **Reduced Data Transfer**: Only relevant fields are returned in search results
4. **Better Query Planning**: Redis can optimize queries based on field types and indexes

#### Backward Compatibility

The custom schema feature is fully backward compatible. Existing Redis vector stores without custom schemas will continue to work exactly as before. You can gradually migrate to custom schemas for new indexes or when rebuilding existing ones.

## API reference

For detailed documentation of all `RedisVectorSearch` features and configurations head to the [API reference](https://api.js.langchain.com/classes/langchain_redis.RedisVectorStore.html).
